Coin counting and registering device.



H. H. FEFELL &L F. OHMER.

COIN COUNTING AND REGISTERING DEVICE.

APPLICATION FILED OCT. 10. 1913.

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APPLICATION FILED 00110.1913.

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APPLlCATlON FILED OCT-10. 1913. 1 210 622, Patent-ed Jan. 2,1917. 9 \O $HEET$SHEET IO- Fig/7 6 awe/M614 UNITED STATES PATENT OFFICE.

HENRY H. FEFELL AND JOHN F. OHMER, OF DAYTON, OHIO, ASSIGNORS TO OH'MEB FARE REGISTER COMPANY, OF DAYTON, OHIO, A CORPORATION OF NEW YORK,

(INCORPORATED IN 1902.)

Specification of Letters Patent.

Patented Jan. 2, 1917.

Application filed October 10, 1913. Serial No. 794,497.

To all whom it may concern:

Be it known that we, HENRY H. FEFELL and JOHN F. OHMER, citizens of the United States, residing at Dayton, county of Mont gomery, and State of Ohio, have invented certain. new and useful Improvements in Coin Counting and Registering Devices, of which we declare the following to be a full, clear, and exact description.

This invention relates to a type of fare register or device used on street railway cars for collecting and keeping account of the coin or fare paid for transportation.

The main object of the invention is to provide such type of machine having a certain form of mechanism through the instrumentality of which the coins are received and. counted or assorted and distributed into separate compartments and registered.

A further object of the invention is the provision of a mechanism which is simple and durable in construction and use.

\Vith these and other objects in view which will appear as the description proceeds, the invention consists in certain novel features of construction and combination of parts, the essential elements of which are set forth in the appended claims and a preferred form of embodiment of which is hereinafter described with reference to the drawings which accompany and form part of this specification.

of said drawings: Figures 1 to 8 inclusive are views of the machine employing a coin counter only with an indicator thereon, but without a registering device to register in permanent form the count made; while Figs. 15, 16 and 17 show the machine with the registering mechanism in addition to the counting mechanism. To proceed more in detail: Fig. 1 is an elevation of the device embodying our invention upon the handdriven side with the casing thereon covering its operating parts and showing the support upon which it rests and coin receiving hopper sin-mounting the casing. Fig. 2 is a side elevation taken at right angles to Fig. 1 upon the dial register side, such dial register showing through a. sight glass in the casing. F 3 is an elevation upon the motor-driven side with the casing and hopper removed and showing in elevation certain of the operating parts. Fig. 4 is an elevation similar to Fig. 3 but upon the hand-driven side, the

lower portion of the frame of the machine containing the coin receptacle being removed. Fig. 5 is a longitudinal sectional view on the line 55 of Fig. 6 looking in the direction indicated by the arrows, the section being taken just within the casing shown in Figs. 1 and 2 and showing such casing and the lower frame of the machine in section but showing the operating parts within the casing in elevation. Fig. 6 is a longitudinal sectional view on the line 66 of Fig. 5, looking in the direction of the arrows and showing the casing and interior framework of the machine in section but showing the operating parts in elevation at right angles to these parts as shown in Fig. Fig. 7 is a longitudinal sectional view on the line 77 of Fig. 5, looking in the direction of the arrows and showing the casing, the frame of the machine, and the operating parts in section. Fig. 8 is a longitudinal sectional view of the coin separating and delivering mechanism on the line 88 of Fig. 7. Fig. 9 is a transverse, sectional view of this mechanism on the line 9-9 of Fig. 7. Fig. 10 is an enlarged detailed view showing certain of the operating parts in side elevation. Figs. 11 and 12 are plan views of the selector wheel shown in Fig. 10. Figs. 13 and 14 are enlarged detailed views partly in elevation and partly in section of the manual driving device. Fig. 15 is an elevation of the machine upon its hand-driven side as in Fig. 4 but showing in addition to the parts shown in Fig. 4, the lower frame of the machine to contain the coin distributing device and cash drawer, and also a side elevation of the registering device. Fig. 16 is a central longitudinal sectional view on the same section lines as is Fig. 7 but also showing in addition to the parts shown in Fig. 7, a sectional view of the registering device of Fig. 15; or otherwise stated, Fig. 16 is a central longitudinal sectional view of Fig. 15, the counting device however being removed, and showing a form of coin distributing device differing from that shown in Fig. 7. Fig. 17

' is a partial sectional and elevational View similar to Fig. 6 but showing the form of the coin distributing mechanism shown in Fig. 16.

Like numerals refer to like parts throughout the drawings.

The machine is shown as supported upon a stanchion 1 having a holding bracket 2 from which extend uprights 3 over which are fitted the ears 4.- upon the lower box-like frame of the machine. By this construction, the machine is readily adjusted in a firmly supported position and removed therefrom simply by sliding the ears along the uprights 3 until the lower casing of the machine rests upon the bracket 2 or until the ears 4 clear the uprights 3.

The outer casing 5, as shown in Figs. 5, 6 and 7 rests upon the lower box-like frame 6 of the machine and is removable therefrom. A door 7 is provided hinged to the lower frame 6 as shown at 8 and locked or otherwise maintained in position against the casing 5 as shown at 9, the door being of such shape as to extend about the motor 10 and providing ready access to the motor and surrounding parts for adjustment or repairs.

The shaft 12 is the main driven shaft of the machine and upon this are fixed for rogether by the screws 15.

tation therewith the coin selector wheel 13 and the register operating cam 14L, both wheel and cam being also fixedly attached to- The shaft 12 is journaled in the l-shaped extension 16 on each side of the frame of the machine, the journal ends of both of these extensions be ing shown in Fig. 5, and a full side view of one of them being shown in Fig. 4-.

Above and to one side of the shaft 12 is a second driven shaft 23 extending through and journaled in each side of the V-shaped frame work 16 of the machine as shown in Fig. 5. Fixedly mounted upon this shaft 23 by means of a hub portion 24: is a brush shown in end elevation in Fig. 5 and in side view in Figs. i, 6 and 9.

Two means of imparting rotary motion to the shafts 12 and 23 are employed, these means comprising the motor and the hand operated device situated on opposite sides of the frame work of the machine. And in order to enable either means to be employed without interference with the other the following power transmission mechanism is used: Beginning with the motor as a source of power, rotary motion is imparted thereby to the worm 17 upon the motor shaft. This sets in motion the worm wheel 18 upon the shaft 19 journaled in frame extensions 20, one of which is shown in 3 and one in Fig. 5. Upon the shaft 19 is also fixedly mounted the pinion 21. Tl is meshes with and imparts rotation to the toothed wheel 22 loosely mounted upon the shaft 12. Loosely mounted upon the shaft 23 is a similar toothed wheel 26 meshing with the wheel 22 and receiving rotation therefrom. Fixedly mounted on the end of shaft adjacent the gear wheel 26 is a ratchet 27 and upon the gear wheel 26 is the pawl 28 pressed by the spring 29 into engagement with the ratchet. By the'mechanism thus described rotary motion is imparted to the gear wheels and from the motor and to the shaft 2 by the ratchet and pawl. The gear wheel 22, however, being loose upon the shaft 12 does not impart rotation. to that shaft. Rotation is imparted to shaft 12 by the gear mechanism upon the opposite or hand operating side of the machine as shown in Fig. 1-. This mechanism comprises the small 30, fixed on shaft 23, the gear 31 and the large wheel fixedly mounted on shaft 12. This indirect means of imparting rotation to shaft 12 is employed in order that the hand onerating mechanism presently to be desc bed may be employed without setting in motion the train of gears upon the motor side of the machine.

The hand operating mechanism is shown in Figs. 1, 13 and 14, and comprises a shaft operating member 33 fixedly mounted on the brush shaft 23 and of greater length than width to provide engaging surfaces for the crank mechanism shown in Figs. 13 and 14:. When the outside casing shown in Figs. .1 and 2 is on the machine, a cap 3 1, Figs. 13 and 14, attached thereto ex tends over the member 33, the cap having a central perforation or bearing concentric with the shaft In this central perforation extends a member having a hub portion 35 with a cylindrical bearing surface in tne central perforation in the cap and an engaging portion 36 with parallel sides to engage the parallel sided member 33 upon the shaft 23. The interior of the hub is square in contour for the reception of a similarly shaped lug 37 extending from the crank 38. The lug 37 retained. in place in the hub portion 35 by means of a spring 39 attached to said lug and extending into a beveled recess in hub By this con struction, the lug upon the crank 38 although firmly held in place in the hub portion of the member 35 so as to impart rotation to the member 30, is readily withdrawn therefrom when it is desired to remove the operating cranl. By operating the handle 10, rotation is, therefore, imparted to the brush shaft 23, and therefrom to the coin selector wheel shaft 12 by the train of 80, 31 and 32. During this rotation of shaft 23, however, the ratchet 27 is rotating in the direction indicated by the arrow on Fig. 3 and does not impart rotation to gear wheel 26 because the pawl 28 thereon rides over the teeth of the ratchet. Consequently rota-- tion is not imparted to the system of gears beginning with wheel 26 and ending at the motor 10.

The coin hopper shown only diagranr matically in Figs. 1 and 2 is designed to receive and deliver the coins to an interior chute or hopper 42, shown in section in Fig.

7, and which, as shown in Figs. 3 and 4:, is an integral portion of the frame of the machine. One side of this chute is formed into a lip 43 pressing upon the brush as shown in Fig. 7. The lip and the brush at their meeting line thus provide a tight closure so that the coins can not by chance work backward into the interior of the machine. The 'fiip given to the brush by this lip also throws the coins outwardly and downwardly upon the coin selector wheel and prevents their sticking to the brush. The opposite side of the chute is extended downwardly as shown. at 44 on Fig. 7 and upon the lower extremity of this extension are two projections, in this instance screws, only one of which shown at 45 on Fig. 7, these screws being spaced apart a distance less than the width of the smallest coin for which the machine is designed, and extending into grooves i6 upon the surface of the coin selector wheel as shown in Figs. 11 and 12. The purpose of this construction is to prevent the coins from dropping or working their way out of the chute between its lower extremity and the surface of the coin selector wheels.

The coin selector wheel, as shown in Fig. 7, is in the form of a hollow drum with the, spokes 47 shown in Fig. 10 upon one side only to provide a convenient means of attachment for the cam wheel 14. The peripheral surface of the coin selector wheel cylindrical in general contour but is provided with flattened or straightedged portions 48, five of which are shown in Fig. 10 and corresponding to the number of elevations or depressions of the cam wheel 14. lVithin these flattened portions of the coin selector wheel, pins are firmly embedded and extend beyond their surfaces but not beyond the cylindrical portions of the peripheral surface of the wheel; or, in other words, the pins do not extend beyond the greatest diameter of the wheel. Five spaced groups of these pins are shown in Fig. 10. The group 49, comprising, as shown in plan view in Fig. 11, five duplicate pins, there being 10 pins in the group, the group 50, as shown in Fig. 12, comprising 3 duplicate pins or 6 in the group, while the three groups 60 comprise but one duplicate pin or two in the group. These pins are the direct instrumentalities in selecting the coin, the coin selected then act ing upon the counting and registering device subsequently to be described. In order to accomplish this selecting function, the pins are arranged as follows: Group 50 shows the arrangement for the smallest coin for which the machine is designed, for example a dime. The pins of this group are arranged in two lines of three pins each convt-irging in a direction. opposite to that in which the wh eel. upon which they are in minted is rotated. As shown in Fig. 7, the coins fall through the chute 42 upon that surface of the coin selector wheel which is uppermost. Hence, in the direction of rotation of the wheel indicated by the arrow in Fig. 7, and extending from the screws 45 to the brush, the coins present themselves to the pins at the diverging end and are carried toward the brush. The pins referred to in group 50 shown in Fig. 12, therefore diverge, so far as the travel of coins is concerned in an upward direction. The two pins 50 are therefore the uppermost of these pins. These pins are spaced apart a distance greater than the diameter of the dime but less than the diameter of the next largest coin, for example, a. penny. The next set of pins are spaced apart a distance but slightly greater than the diameter of the dime so as to provide a guide way for this coin as it comes to rest upon the lowernmst pins 50 of the group, the two sets of pins 50 and 50 serving to hold the coin in p sition upon the flat surface in which the pins are located, the coin then occupying a position in the center of this surface as shown by the dotted lines in Fig. 12. Should a larger coin be presented to the entrance formed by the two pins 50, for example a penny, it can not completely pass through the space between the pins and occupies a position not wholly within the flat surface of the wheel as also shown in dotted line on Fig. 12.

Now the central portion of the fiat surface of the wheel occupied by the dime as shown in Fig. 12, is sufficiently below the adjoining cylindrical surface of the wheel that the coin does not project above such surface. Hence, assuming that two coins are upon the wheel as shown in Fig. 12, in the direction of rotation of the wheel shown in Fig. 7. the brush 25 passing over the cylindrical surface of the wheel would at once remove the larger coin from such surface but because of the lower position occupied by the smaller coin, the brush would not dislodge this coin from its position. The smaller coin is thus automatically selected and passes beyond the brush where it sets in operation certain mechanism later to be described.

The pins of the group 49 are so arranged in converging lines that the dime passes betweenthe pins which are spaced the shortest distance apart and hence the dime passes completely through the group. The selective operation which occurs between the penny and the next higher coin, for example, the nickel, is, however, identical with that already described, the penny entering suiiiciently to occupy the position completely within the flat surface of the wheel as shown in dotted lines on Fig. 11 and the nickel occupying a position projecting upon the cylindrical surface and in the path of the brush as also shown in dotted lines on Fig. 11. Two lines of five pins each are shown in this group. The greater number here, it

has been found practical to use to better guide the clinic in its passage completely through the group and to guide the penny into position.

in the groups of pins numbered 60 on 10 and designed for the largest coin for example the nickel, it has been found necessary to employ but two pins, spaced apart a distance sutlicient to allow the passage therobetwcen of the next est coin. lhese pins so p aced that the nickel cor s into position in the center of the flat surface of the wheel and hence like too smaller coins before mentioned, esczpcs the sweenin action of the brush.

l l hi V in each instance the brush may eng.. he surface of the coins which are in posi .on against their respective pins such action not suihcient to dislodge any coin which lies wholly within the flat surface. In fact, this sweeping action being in a direction against the advancing coins upon the flat surfaces serves merely to more firmly lodge there a L ulllfii, one pins.

Attached to the interior frame of the roe-- chine by rivets 51 or any other convenient means is cain ring hilounted upon the hub 53 of the coin selector wheel is a member 54;, the link-shaped bearing of the memher on the hub being such as to perinit procation of he ineniber Friltransrcrse of the hub and of the shaft 1:2.

he nieinber 54; carries a plunger 55 extending through a perforation in the rim of the coin selector ring and spring pressed away from the axis of the wheel by the spring Upon the member 54c adjacent to the plunger is a roller 57 extending toward and in contact with the edge of the cam ring The cani ring 52 has a circular interior edge or bearing surface for the roller 57 except for the cam recess 58 extending toward the rim of the coin selector wheel. By this construction, the member 5411 with plunger 05 is carried by and rotates with the coin selector wheel, and the roller 5? being pressed against the interior edge of the stationar carn rin 52, retains the member 54- concentric with the shaft 12 and the plunger 55 within the peripheral surface of the coin selector wheel during the travel of the roller over the circular portion of the cam ring. l i hen, however. the cam recess 58 is reached the spring 56 causes the roller 5'? to follow therein, thus projecting the plunger 55 outwardly beyond the peripheral surface of the coin selector wheel. It is to be noted that the earn recess a8 is located on a line within the chute 42 and that the plunger is therefor projected upward within the chute and withdrawn before the brush is reached. The object of this reciprocation of the plunger 55 is to so stir up the coins within the chute and adjacent the wheel that any wedging action of the coins upon one another or upon the sides of the chute which would choke the mechanism is obviated.

@l ournaled hearings on each side of the machine frame is haft 538 upon which is join-nailed a figure FEE-shaped spring supportiig member 59. Upon the upper extremity 8 his supporting member is pivoted presser member 61 pressed by the spring 62 to ride within the central groove (53, Figs. and 1.2, upon the peripheria]. surface of le coin selector wheel. Attached to the ower end of the supporter member 59 is a metallic band Glfiartially encircling the coin selector wheel, and f width suliicient to substantially cover and retain coin in iosition as the coin is carried downward by the coin selector wheel. This metallic band is spring pressed toward the periphery wheel by the spring pressed plunger 65, reciprocating in the V-shaped recess 66 in the frame of the machine.

by the construction above described, the coin in passing to the left of the brush first en pressure member (31. Upon the the continued rotation of the coin selector wheel, the coin carried thereby passes under the metallic retaining band 6 L until it reaches the extreme lower end thereof when it is in position to drop into the coin ceiver 67. V

Adjacent the shaft 58 is a second shaft (59 also ournaled in each le frame of the ma chine. Firtedly mounted on this shaft 69 is a hub 70 carrying at one end a pawl 71 eX- tending downwardly through slot 72 in the metallic band 6-1 and into the central groove in the peripheral surface of the coin selector wheel and into the path of the coins to be operated by them. At the end of the hub 7G, opposite to that upon which the pawl 11 is secured and extending upwardly. is a detent '23. Above and to the right of sl ft 69 carrying the pawl and detent referred to, is a stud shaft 7% extending from the motor side of the frame. Upon this shaft is journaled an upwardly extending sector gearing. Integral with sector 75 is a rocking pawl 76 carrying the roller 77 to be operated upon by the cam wheel 14:. Upon the sector 75 is a pin 78 with which the detcnt 73 engages to retain the sector innnovable.

The cani wheel ll is constructed with its elevated. portions all of equal distance from the center of shaft 12 upon which it is mounted, and thee portions are placed out of alineinent with the coins when in their proper position upon the pins. By this arrangement, the rocking pawl 76 is rocked upwardly by the elevated portions of the cam wh el in turn rocking the sector upwardly to its highest or inoperative position where it is held by the detent 73, this detent being spring pressed toward the pin 78 by the coiled spring 7 9 upon the end of shaft 69. This coiled spring 79 engages one end of shaft 69 as shown in Fig. 4, while its opposite end is attached to the spring case 80, the abutment for the spring being provided by the pin 81.

Journaled in both upper side frames of the machine adjacent the toothed portion of sector 75, is a shaft 82, having fixedly mounted thereon a small toothed gear wheel 83, shown in dotted lines in Fig. 10, and in full lines in Fig. 5, which gear wheel meshes with the sector 75. Shaft 82 has upon its end opposite to the motor side of the machine a spring device 84 similar to the spring device on shaft 69. The spring deice 84 tends to impart rotation to shaft 82 and in consequence to the gear wheel 83 in a clockwise direction and is only restrained from so doing by the engagement of the sector 75 with the gear wheel 83 and the retention of the sector by the detent 73. lVhen, however, the detent is released the spring device 84 rotates the gear wheel 83, which in turn rocks the sector 75 upon its shaft 74 to lowered position. The subsequent elevation of the sector by the cam wheel operating on rocking pawl 7 6, rotates wheel 83 and shaft 82 in a direction opposite to that first mentioned and restores the spring device 84 to its original condition. Upon shaft 82 is also fixedly mounted the large gear wheel 85 which meshes with the gear wheel 86 jour naled upon a short stud shaft 87. The gear 86 in turn meshes with the gear wheel 87 iournaled on the shaft 88 extending through the bracket 89. Fig. Fixedly attached to this gear wheel 87 is the ratchet 90 shown in dotted lines on Fig. 10. Shown in elevation in Fig. 5, is an indicator of a type well known in fare registers, and the details of which form no part of the present invention. In this indicator as here employed, five indicator wheels are used, each beginning with the one shown on the left in 5, are operated upon by the indicator wheel on its right, the rotary movements for all being transmitted. therefore through the right hand indicator wheel. This indicator forms no part of our present invention. This brief description is, therefore, all that is deemed necessary here.

In the present invention, the right hand indicator wheel has rigidly attached thereto a broad toothed wheel 91 upon which is the pawl. 92 pressed by the spring 93 into engagement with the ratchet 90 upon the gear wheel 87.

Now when rotation in a clockwise direction, indicated by the arrow on Fig. 10, is imparted by spring device 84 to shaft 82, gear wheel 85 rotating in the same direction imparts a contrary rotation to gear wheel 86. Gear wheel 86, in turn, imparts a clock wise rotation to gear wheel 87 and ratchet 90. This rotation, however, does not operate the indicator wheels for as observed from Fig. 10, the direction of rotation of ratchet 90 is such that pawl 92 rides over the teeth upon this ratchet. The clockwise rotation of gear wheel 82 and the downward rocking of sector 7 5 when unrestrained by detent 73 is not, therefore, an indicator operation.

The cam wheel 14 is arranged with its elevated portions, as already stated, in advance of the coin selecting pins so that until the coins have been carried into operative position against operating pawl 71, the detent 73 is in elevated position against pin 78 retaining sector 75 in its upper position against pressure of spring device 84 exerted through shaft 82 gear 83 upon sector 75. The coin selecting and position retaining pins are, as shown in Fig. 10, placed slightly in the rear of the elevated positions of the cam and slightly in advance of the depressed positions. Vhen, therefore, a coin is carried by these pins upon the coin selector wheel into contact with the end of operating pawl 71, the coin rocks this pawl toward the left in Fig. 10, and the detent 73 toward the right away from pin 78. The spring device 84 immediately rotates the shaft 82 in a clockwise direction, rocking the sector downward, the roller 77 following into the depressed portion of the cam. During this operation, as already stated, the indicator is not set in operation due to the ratchet and pawl arrangement described. Upon the continued rotation of cam wheel 14 in the direction indicated by the arrow in Fig. 10, however, the roller 77 upon rocking pawl 76 rides through the depressed portion of the cam and ascends the advancing side of the next elevation. By this ascent, the pawl 76 is again rocked upward returning the sector 75 to its upward position and in so doing, the sector imparts rotation to the gear wheel 83 in a counter clockwise direction or opposite to that indicated by the arrow on Fig. 10, and this gear through gears 86 imparts rotation to gear 87 in also a counter clockwise direction, setting the teeth of ratchet 90 against pawl 92 and thus rotating broad toothed wheel 91, 'which being fixedly'attached to the right hand or unit indicator wheel sets it in rotation.

As is obvious from the construction here shown the extent of rotation of the unit indicator wheel determines the count and its registration. This extent of rotation in our present invention is determined by the following arrangement of the coin selector pins and the cam .wheel: The cam wheel. as shown in Fig. 10, is made with depressions and elevations corresponding respectively in number with the groups of selector pins. The indicator wheels, where the decimal system of currency is used, is marked upon the 360 degrees of its peripheral surface with indications one tenth of the circumference or 36 entire rotation, for nickels fire tenths,

degrees apart. Taking the unit indicator wheel for illustration, one complete rotation starting from the Zero mark would return to Zero and set in operation the next adjacent indicator wheel, both indicator wheels then indicating the numeral 10. For pennies,

therefore, the unit indicator wheel would be required to rotate through one tenth of its etc. The depressed portions of the cam are graduated into certain deg cos of depression relative to one another coir-spending to the value of the coins adjacent the depression F or example, the deepest depression is shown at 94: on Fig. 10. This depression such that when the pins 50 immediately in advance thereof select a dime from the coins in the chute 4:2 and carry it by rotation of the coin selector wh el into contact with the pawl '71, the sector 5 released thereby, roo s first downward and then upward in gonig through the depression 9-1, and asccncing the next elevation, an extent sui'icient to turn the unit wheel one complete rotation hy the mechanism already described. The (leplefF sions 96 in the cam wheel adjacent the nickel selector pins are made one-half the extent of depressions of those adjacent the dime selector pins, and in consequence, in the manner already described, the unit wheel turned onehalf rotation and five units are recorded. Likewise, the depressions 97 adjacent the penny selector pins are made one tenth the extent of depression of those adj cent the dime selector pins and in conse quence, by the mechanism set in mot-ion by the one cent piece, the indicator wheel is turned through but one-tenth a rotation and one unit is recorded. in operation various coins may be on the coin selector wheel simultaneously. No mistake in the count can, however, occur since the roller 77 upon the pawl 7 6 must ride through one depression and ascend its adjacent elevation before the next coin and its adjacent depression are reached, and therefore the s .ctor for each desce' t is rotated downward an extent sufficient for each ascent to rotate the indicator whee the proper distance.

To provide a positive lock against rotation of the indicator gear wheels beyond the degree of rotation determined by the mechanism described, the wheel 91 upon the unit indicator wheel is provided. with ten teeth equally spaced apart and a locking lever 98 is pivoted upon the frame to engage therein. The lower end of this lever carries a roller inposition to be engaged by the cam 99 integral with or attached to the sec tor. This cam is positioned to contact with the locking lever when the sector is moving downwardly and upwardly in the act of 1-0 tating the unit indicator wheel, thus rocking the lower end of the lever to the left, as the parts are shown in Fig. 10, and its upper end to the right out of locking position. When, however. the sector has completed its upward ascent and the consequent rotation of the unit wheel is complete, the cam is out of contact with the locking lever. The lever is then, by means of spring 100, attached to upper end and to the frame of the machine, d1 .wn into locking position.

The coins having accomplished the opera ions stated, are carried by the coin selector wheel beyond the lower end of the metallic retaining band 64: and drop into the coin separator 67. This coin separator, as shown in Figs. 7 and 8, includes mechanism for sorting the coins and depositing them in separate compartments according to their denominations. Three compartments are shown, 101, 102 and 103 for nickels, pennies and dimes, respectively. Fig. 8 shows in longitudinal section, the device which separat s the coins before delivery into the com p, rtments below. Th first delivery chute, 104:, has an entrance from the slideway 105 of a formation to guide the smallest coin employed, for example, the dime, therein, but preventing because of its and the presence of guide ways thereover, the entrance of the larger coins. The entrance to this chute 10% is semi-circular at the side which the coin first reaches, as shown 106, Fig. 8, save for cut away portions 107. On the opposite side a bridge is formed rising slightly from the floor of slide-way 105 and having side portions 109 extending in advance of the edge 106, the space between these extending portions 'eing of greater width than the diameter of the smallest coin but providing a bridging surface for the larger coin The wall immediately above this entrance is recessed upon curved lines as shown at 110 in Figs. 7 and 9. By this construction the dime upon rerching the semi-circular entrance 100, and the squared out portions 107, passes so far over the edge 106 that it is quickly tilted upward, the

recess 110 providing sufficient space for this, and the coin then drops into the chute 10; and thence into the compartment 103. The coins, upon reaching the bridge por tions 109, are unable to pass therebetween and ride over the surfaces 109 and 108. The next entrance 111, is made of size sufficient to permit the passage of the next largest but insufficient to permit the passage of the largcoin. This entrance has the advance side out out at the corners forming a square onare formed into a cash drawer which can be withdrawn from the lower frame work of the machine for the purpose of making erence being had to the aforesaid patent for change, the compartments being of curved formation toward their front or opening end to permit the ready extraction of the coins therefrom.- A thin metallic member 113 is attached to the bracket 11 1, Fig. 7, and functions to guide the rapidly descend.- ing coins into the coin separator 67.

In addition to the mechanism above described, by which the counting and dial indicating device shown in elevation in Fig. 5 is automatically set in operation by the coins themselves, there is shown in Figs. 15 and 16, a registering mechanism likewise set in operation by the coins, to take a per manent record of the count indicated upon the counting and indicating device. The details of this printing mechanism itself constitute no part of the present invention, but forms the subject matter of Patent No. 6%,32 issued on February 1902. to John F. Ohmer. Hiram Tyler and V. F. Breidenbach as joint inventors. This printing mechanism will therefore be described here only in so far as essential to show how it is made use of in the present invention, refa more detailed description. Upon the shaft 82 which bears the gears 83 and 84 transmitting motion from the sector 75 to the counting device already described, is shown in Figs. 15 and 16, fixedly mounted a wheel direction. as indicated by the arrow, from 111. The wheel 111 is laterally offset from the counting wheels shown in Fig. 5 so that its periphery which extends beyond the periphery of the counting wheels, will not interfere with the operation of said wheels. Upon said wheel 111 is a spring pressed pawl 1.12, Fig. 16, engaging the ratchet 113 loosely mounted on the shaft 82. Upon the hub of the ratchet 113 and rotating therewith is a sprocket wheel 11% about which is passed a chain 115. As shown in Fig. 16, the pawl. 112' and the ratchet teeth 113 are so arranged that rotation is. imparted to sprocket wheel 11% in a counter-clockwise the wheel 111. This motion of wheel 111 is imparted thereto by sector 75 when rocking upwardly in the operation of rotating the counting wheels. the sector 75 imparting its motion through gear wheels 83 and 85 as already described. Upon the downward movement of sector 75, which, as already explained, is not a counting wheel operating movement, gears 8 85, shaft 82 and wheel 111 are rotated in clockwise direction as shown by arrow on Fig. 10, and during this rotation of wheel. 111, the pawl 112 rides over teeth of ratchet 113 and sprocket wheel 1141 is not rotated. Hence sprocket wheel 114 is rotated only when the coin counting wheels are rotated and in the same degrees of rotation.

Upon an extended portion 117 of the lower frame of the machine is placed the registering mechanism receiving operations from the chain 115. In the side frames 118 of this registering mechanism is mounted shaft 116, upon which is loosely mounted the sprocket wheel 119 about which the lower end of chain 115 is placed. There is shown in full lines at 120, Fig. 16, a unit wheel similar in operation to the unit counting wheel already described, save that upon wheel 120 are placed type numerals while on the unit counting wheel indicating numerals are placed as shown in Fig. 5. Attached to sprocket 119 is a toothed gear wheel 121, the teeth of which correspond in number and in spaced position with the type numerals on wheel 120, which. in turn corresponds in number and in spaced position with the in dicator numerals on the counting wheels. Where the decimal system of currency, for example, is used, there are upon the type and upon the counting wheels referred to ten spaced numerals beginning with 0 and ending with 9. This ten toothed gear 121 meshes, as shown, with a ten-toothed wheel 122, shown in dotted lines, as attached to the unit wheel 120. For each complete rotation, therefore, of sprocket wheel 119, the unit type wheel is rotated a complete rotation and all the numerals upon its surface are successively brought into position.

The foregoing description of the opera tion of the unit type wheel is deemed sufficient for the present purpose, the next succeeding type wheels being operated in a manner well known in fare register devices and as shown in the Patent No. 694,322 al ready referred to.

Upon an upwardly spring pressed bracket 123, Fig. 15, is carried an ink roll 124 Fig. 16. Journaled in a pivoted. carrier 125, is a shaft 126 carrying a wheel 12? with a pin 128 thereon. Upon the interior of carrier 125, shaft 128 has a laterally extended flattened portion 131 with adjacent curved sur faces, shown in full lines at 132. At the bottom of carrier 125 is supported a roll of paper, irom which the paper extends upwardly upon the platen bar 130 and through the paper rolls 13 1 and then out- "ardly in position to be torn off by the op erator. In the end of shaft 126, opposite to the pin wheel 127, is a key way, not shown, for the insertion of a shaft turning key; Upon rotation of shaft 126 thereby in a counter clockwise direction, pin 128 engages a pronged portion 129 of the bracket 123 and lowers ink roll carried thereby into contact with type wheel 120 and upon further rotation of shaft 126, pin 127 rides out of prongs 129 allowing ink roll 12% to ascend and out of path of platen 130. Upon still further rotation of shaft 127, cam surfaces 132 are turned to press platen 130 with the paper thereon against the inked type wheels and an impression is taken which, because oi the mechanisms already described, is identical with the indications on the count iug wheels. The paper i fed through the machine ei by hand wheel 135 noon one of he feed rolls 134;, or by gearing terinediate shaft 12? and such teed rolls whereby a last turn of key in shaf feeds paper outwardly for separation from the machine By this construction a permanent record of the total count made upon the counting wheels is oliieained.

In Fig. 17 is shown a mechanism for dis tributing the coins to the Yarious CO1DPi3fl1- nents oi the cash drawer, diil'ering; from the mechanism already described. Upon the frame of the machine, below and of care wheel 1%, is a lever 130 with a roller 18? there 11 extending laterally toward the cam wheel and spring pressed to ride on the cam surfaces thereon. immediately below the coin selector wheel 13 is a coin receiven arraiged in. position to receive the coins passing from the lower end oi the restrain ing ba d. The lower end oi? receiver is cylinui cal in shape and provides bearing suria e for the coin distributor 139 pivoted thereto upon shaft 1-l-O. The pivoted inen her 139 has upwardly curved extensions fitting over and bearing upon the cylindncal surface of receiver 138 and circular en coin chute with closed sides and at the a time permitting a lateral swirl lower portions for the distribution Since the extreme peripheries of the cams on cam wheel. let are all an equal dist from shaft 12 upon which cain wheel rotates, the lever 136 is rocked downwaiu by each can surface an invariable distance. The upward movement of lever 136, how'- ever, under the influence of its returning spring varies in extent corresponding to the relative graduations of the depressec portions of the cam wheel between the elevated cain surfaces. This variable upward increinent is transmitted to the lower portion 139 of the coin distributor by link 141. distributer 139 is the coin e aice device 142, the upper surface of ich is formed along the are described by the lower end of coin distributor 139. ssage or slid wave 143, 14 i and 1&5 are formed therein delivering to the co npartinents 10L and 108 already referred to. These or ways 1 13, 1 1 i and 14:5 are formed in predetermined positions dcpendent ipon the positions to which the member 139 is swing by the variable upward increments of lever 136 as already described the member 139, as said lever rides over each cain elev Lion,

1 1 below swinging to the extreme right in 16, and returning to position over slide'way 143, 1 14; or 1 1-5 as it enters the next cain de pression. The lever 136 is so positioned beneath cani wheel 1 1 and is made of such it 111g, for example, that a piece is in position upon pins 60,

il'jacent cani depression. 96, the ding therein causes lever 136 jig. 17, at a time when the coin is in position to be ed troni restraining band (it, and the COL.- drone by gravity through the nrough passage in into operation distributes the dime and the penny into its proper compartment. Moreover, since the depressu' on cam wheel 1 lare separated by ele' ations which do not si-ving distributor 1239 coin passage a time when a coin is in posi. tion on the coin selector wheel to drop therethrough the pas age of coins into the wrong compartment is impossible. lhis coin distributing operatioin it is further to be noted, is the same in principle as that of the coin counting and registering both being accomplished through a single variable movement device such the cane wheel the extent of whose movement is dependent upon the coin to be counted, registered and distrib uted.

l fhile the form ofinechan'sin here shown rid described is admirably adapted to fulfil he objects priinari stated it is to be undertood that it is not intended to confine the ivention to the one form of embodiment ercin disclosed, for it is susceptible of emodiinent in various terms, all coming within to v scope oi? the claims which follow:

l i hat is claimed and desired to be secured Letters Patent is:

n a coin counting device, counting and org;

isteringof coins of varying denominations, a hopper to receive coins of varying denominations coin selector means comprising wheel the peripheral surface of which moves in th path of the coins within said hopper, said peripheral surface having spaced fiattened or straightedged portions, pins embedded therein and projecting from said flattened surfaces a distance suiiicient to retain on each flattened surface a single coin, the pins upon the surface designed for the reception and retention or the largest coin for which the machine is designed being spaced apart a distance less than the diameter of such coin but greater than the dirpartinent designed for its o swing distributor 139 over passage l hl, b

into alineinent with a ioo ameter of the coin next in size, the remaining pins being arranged in groups upon each flattened surface, each group comprising two straight lines of pins diverging in the direction of rotation of the wheel, the divergent end providing the entrance and the convergent end providing the exit for all coins save those designed to be retained thereon, the arrangement of pins being such as to select and retain upon the periphery of said wheel at least one coin of each of the denominations for which the machine is'designed, a cam wheel adjacent said first mentioned wheel with cam surfaces corresponding in number and location to the coin selecting and retaining pins, the cam surfaces being each graduated in degree correspond ing to the relative value of the coin to be retained in its adjacent coin selecting and retaining pins, a sector gear imparting move ment to the counting and registering wheels and pivoted for varying degrees of movement in a single plane corresponding to the predetermined degrees of rotation required of the counting and registering wheels, a rocker arm on said sector gear arranged to be operated by said cam surfaces, a detent normally holding said rocker arm out of operating relation with said cam surfaces, said detent disposed in the path of the coins upon said coin wheel to release'the rocker arm by contact with said coins, a looking mechanism automatically locking said counting and indicating wheels, means upon the sector gear releasing said locking mechanism upon movement of said sector gear to operate the counting and indicating wheels.

2. In a machine of the type specified, the combination of a hopper for the initial reception of coins of various denominations, a coin selector wheel movable in the path of the coins within said hopper, a cam wheel movable concurrently with said coin selector wheel, a counter, means interposed between said counter and said cam wheel and imparting to said counter varying degrees of movement by which the coin values are counted, a cam ring 52 attached to the frame of the machine, and means actuated by said cam ring 52 including a plunger adapted to be projected into said hopper to stir the coins within the hop er and thereby prevent any choking of the same.

3. In a machine of the type specified, a hopper for the initial reception of coins, a coin selector wheel movable in the path of the coins within said hopper, a cam wheel adjacent to said coin selector wheel, a counter, mechanism interposed between said counter and said cam wheel for operating said counter, mechanism arranged in the path of the coins on said coin selector wheel adapted to normally hold the counter, and to release said counter mechanism for opera- 54 mounted on the coin selector wheel and adapted to be actuated from said cam ring 52, and a plunger 55 carried by said reciprocating member and adaptedto agitate the coins within said hopper whereby said coins are prevented from becoming choked in their delivery to the coin selector wheel.

4. In a machine of the character specified a hopper adapted to contain a collection of coin of different values, a selector wheel having its periphery provided with grooves and coin collecting pins movable below the discharge opening in said hopper and collecting the coins therefrom, a supporting member, a presser member mounted on said supporting member in a position to ride in the central groove of said selector wheel, and adapted to initially engage the coin thereon, and a metallic band supported by said supporting member and encircling the periphery of said coin selector wheel below said presser member, whereby the coin is maintained in position on the selector wheel during the continued rotation thereof.

5. In a coin counting and registering device, counting and printing wheels rotatable to varying degrees for the counting and registering of coins of varying denominations, a hopper to receive coins of varying denominations, a coin selector wheel rotating with its peripheral surface moving in the path of the coins within said hopper, spaced coin selecting and retaining means thereon separating and positioning the coins from said hopper upon the peripheral surface of said wheel in predetermined positions correspending with the denomination of the coin, a supporting member, a presser member carried thereon in a position above the peri hery of said coin selector wheel, a me lie band also carried by said supporting member whereby the coin is maintained in position on the coin selector wheel during a continued rotation thereof, a cam wheel adjacent said coin wheel with cam surfaces corresponding in number and location to the coin selecting and retaining means, the'cam surfaces being each graduated in degree corresponding to the relative value of the coin in its adjacent coin selecting and retaining means, counting and printing wheel rotating mechanism adapted for operation by the cam surfaces aforesaid, a trip mechanism disposed in the path of the coins upon said coin wheel, said trip mechanism normally holding the counting and printing wheel rotating mechanism out of operative position with said cam surfaces but adapted to release said mechanism for operation by said cam surfaces upon contact with a coin upon said coin wheel, together with means for obtaining an impression from said printing wheel.

6. In a machine of the character specified,

011,3 cam ring r es mem er a rr l ad p d to m n e t e i coins of different values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening of said hopper and collecting the coins therefrom, a supporting member, a presser member mounted on said supporting member in a position to ride in the central groove of the selector wheel and adapted to initially engage the coins thereon, an elastic band supported by said supporting member around the periphery of said coin-selector wheel and below the presser member, whereby the coins are maintained in a position on the selector wheel during the continued rotation thereof, a cam adjacent to said selector wheel, a swing ing delivery chute adapted to receive the selected coins from said wheel and to deliver the same to separate compartments, and means interposed between said cam and said swinging delivery chute for actuating said chute. V

7. In a machine of the character specified, a hopper adapted to contain a collection of coins of different values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening of said hopper and collecting the coins therefrom, a supporting member, a presser member mounted on said supporting member ina position to ride in the central groove of said selector wheel and to initially engage the coins thereon, an elastic band surrounding said coin-selector wheel below the presser member whereby the coins are maintained in position on the selector wheel during the continued rotation thereof, a cam movable with said selector wheel, and a register actuated from said cam to register the coins selected by said wheel.

8, In a machine of the character specified, a hopper adapted to contain a collection of coins of different values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening of said hopper and collecting the coins therefrom, a supporting member, a presser member mounted on said supporting member in a position to ride in the central groove of said selector wheel and adapted to initially engage the coins thereon, an elastic band encircling said coin-selector Wheel below the presser member whereby the, coins are maintained in position on the selector wheel during the continued rotation thereof, a cam movable with the selector wheel, a register actuated from said cam to register the coins as carried by said selector wheel, and a swinging chute adapted to receive the coins from said selector wheel. and to deposit the same in different compartments, said chute being actuated from said cam.

9. In a machine of the character specified, a hopper adapted "to contain a collection of coins of different values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening of said hopper and collecting the coins therefrom, a coin-retaining member partially inclosing said selector wheel and adapted to maintain the coin thereon to the point of their discharge from the selector wheel, and a presser member adapted to ride in the central groove of said selector wheel and to initially engage the coin thereon and to direct the same to the said coinretaining member.

10. In a machine of the character specified, a hopper adapted to contain a collection of coins or diii'erent values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the dischar e opening of said hopper and collecting the coins therefrom, a coin-retaining 11. In a machine of the character specilied, a hopper adapted to contain a collection of coins of difierent values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening in said hopper and collecting the coins therefrom, a presser member riding in one of the grooves of said selector wheel and initially engaging the coins thereon, a cam movable with said selector wheel, and a swinging chute receiving the coins from said selector wheel and operated from said cam to positions to discharge the coins in diflferent compartments.

12. In a machine of the character specitied, a hopper adapted to contain a collection of coins of different values, a selector wheel having its periphery provided with grooves and coin-collecting pins movable below the discharge opening in said hopper and collecting the coins therefrom, a presser member riding in one of the grooves in said selector wheel and initially engaging the coins thereon, a cam movable with said selector wheel, a register movable from said cam, and a swinging chute receiving the coins from said selector wheel and actuated from said cam to deposit the coins in dif- 

